Ian C. Gray scite author profile

We identified two novel mouse mutants with abnormal head-shaking behavior and neural tube defects during the course of independent ENU mutagenesis experiments. The heterozygous and homozygous mutants exhibit defects in the orientation of sensory hair cells in the organ of Corti, indicating a defect in planar cell polarity. The homozygous mutants exhibit severe neural tube defects as a result of failure to initiate neural tube closure. We show that these mutants, spin cycle and crash, carry independent missense mutations within the coding region of Celsr1, encoding a large protocadherin molecule [1]. Celsr1 is one of three mammalian homologs of Drosophila flamingo/starry night, which is essential for the planar cell polarity pathway in Drosophila together with frizzled, dishevelled, prickle, strabismus/van gogh, and rhoA. The identification of mouse mutants of Celsr1 provides the first evidence for the function of the Celsr family in planar cell polarity in mammals and further supports the involvement of a planar cell polarity pathway in vertebrate neurulation.

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A systematic, genome-wide, phenotype-driven mutagenesis programme for gene function studies in the mouse

Nolan

et al. 2000

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As the human genome project approaches completion, the challenge for mammalian geneticists is to develop approaches for the systematic determination of mammalian gene function. Mouse mutagenesis will be a key element of studies of gene function. Phenotype-driven approaches using the chemical mutagen ethylnitrosourea (ENU) represent a potentially efficient route for the generation of large numbers of mutant mice that can be screened for novel phenotypes. The advantage of this approach is that, in assessing gene function, no a priori assumptions are made about the genes involved in any pathway. Phenotype-driven mutagenesis is thus an effective method for the identification of novel genes and pathways. We have undertaken a genome-wide, phenotype-driven screen for dominant mutations in the mouse. We generated and screened over 26,000 mice, and recovered some 500 new mouse mutants. Our work, along with the programme reported in the accompanying paper, has led to a substantial increase in the mouse mutant resource and represents a first step towards systematic studies of gene function in mammalian genetics.

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The C9ORF72 expansion mutation is a common cause of ALS+/−FTD in Europe and has a single founder

et al. 2012

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A massive hexanucleotide repeat expansion mutation (HREM) in C9ORF72 has recently been linked to amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Here we describe the frequency, origin and stability of this mutation in ALS þ / ÀFTD from five European cohorts (total n ¼ 1347). Single-nucleotide polymorphisms defining the risk haplotype in linked kindreds were genotyped in cases (n ¼ 434) and controls (n ¼ 856). Haplotypes were analysed using PLINK and aged using DMLE þ . In a London clinic cohort, the HREM was the most common mutation in familial ALS þ / ÀFTD: C9ORF72 29/112 (26%), SOD1 27/112 (24%), TARDBP 1/112 (1%) and FUS 4/112 (4%) and detected in 13/216 (6%) of unselected sporadic ALS cases but was rare in controls (3/856, 0.3%). HREM prevalence was high for familial ALS þ / ÀFTD throughout Europe: Belgium 19/22 (86%), Sweden 30/41 (73%), the Netherlands 10/27 (37%) and Italy 4/20 (20%). The HREM did not affect the age at onset or survival of ALS patients. Haplotype analysis identified a common founder in all 137 HREM carriers that arose around 6300 years ago. The haplotype from which the HREM arose is intrinsically unstable with an increased number of repeats (average 8, compared with 2 for controls, Po10 À8 ). We conclude that the HREM has a single founder and is the most common mutation in familial and sporadic ALS in Europe.

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Mutation and expression analysis of the putative prostate tumour-suppressor gene PTEN

Gray

Stewart²,

Phillips³

et al. 1998

Br J Cancer

149

126

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Single nucleotide polymorphisms as tools in human genetics

Gray

2000

224

113

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The development of detailed single nucleotide polymorphism (SNP) maps of the human genome coupled with high-throughput genotyping technologies may allow us to unravel complex genetic traits, such as multifactorial disease or drug response, over the next few years. Here we describe the current efforts to identify and characterize the large numbers of SNPs required and discuss the practicalities of association studies for the identification of genes involved in complex traits.

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Ian C. Gray

Mutation of Celsr1 Disrupts Planar Polarity of Inner Ear Hair Cells and Causes Severe Neural Tube Defects in the Mouse

A systematic, genome-wide, phenotype-driven mutagenesis programme for gene function studies in the mouse

The C9ORF72 expansion mutation is a common cause of ALS+/−FTD in Europe and has a single founder

Mutation and expression analysis of the putative prostate tumour-suppressor gene PTEN

Single nucleotide polymorphisms as tools in human genetics

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